ruby/mjit_c.rb

808 строки
41 KiB
Ruby

# frozen_string_literal: true
# Part of this file is generated by tool/mjit/bindgen.rb.
# Run `make mjit-bindgen` to update code between "MJIT bindgen begin" and "MJIT bindgen end".
module RubyVM::MJIT # :nodoc: all
# This `class << C` section is for calling C functions. For importing variables
# or macros as is, please consider using tool/mjit/bindgen.rb instead.
class << C
def rb_hash_values(cdhash_addr)
Primitive.cexpr! 'rb_hash_values((VALUE)NUM2PTR(cdhash_addr))'
end
def builtin_compiler(buf, bf_ptr, index, stack_size, builtin_inline_p)
_bf_addr = bf_ptr.to_i
# Call "mjit_compile_invokebuiltin_for_#{func}" in mk_builtin_loader.rb
Primitive.cstmt! %{
RB_BUILTIN bf = (RB_BUILTIN)NUM2PTR(_bf_addr);
bf->compiler(buf, NIL_P(index) ? -1 : NUM2LONG(index), NUM2UINT(stack_size), RTEST(builtin_inline_p));
return Qnil;
}
end
def has_cache_for_send(cc_ptr, insn)
_cc_addr = cc_ptr.to_i
Primitive.cstmt! %{
extern bool rb_vm_opt_cfunc_p(CALL_CACHE cc, int insn);
CALL_CACHE cc = (CALL_CACHE)NUM2PTR(_cc_addr);
bool has_cache = vm_cc_cme(cc) != NULL &&
!(vm_cc_cme(cc)->def->type == VM_METHOD_TYPE_CFUNC && rb_vm_opt_cfunc_p(cc, NUM2INT(insn)));
return RBOOL(has_cache);
}
end
def rb_shape_get_shape_by_id(shape_id)
_shape_id = shape_id.to_i
shape_addr = Primitive.cexpr! 'PTR2NUM((VALUE)rb_shape_get_shape_by_id((shape_id_t)NUM2UINT(_shape_id)))'
rb_shape_t.new(shape_addr)
end
def rb_iseq_check(iseq)
_iseq_addr = iseq.to_i
iseq_addr = Primitive.cexpr! 'PTR2NUM((VALUE)rb_iseq_check((rb_iseq_t *)NUM2PTR(_iseq_addr)))'
rb_iseq_t.new(iseq_addr)
end
def rb_iseq_path(iseq)
_iseq_addr = iseq.to_i
Primitive.cexpr! 'rb_iseq_path((rb_iseq_t *)NUM2PTR(_iseq_addr))'
end
def rb_iseq_first_lineno(iseq)
_iseq_addr = iseq.to_i
Primitive.cexpr! 'rb_iseq_first_lineno((rb_iseq_t *)NUM2PTR(_iseq_addr))'
end
def vm_ci_argc(ci)
_ci_addr = ci.to_i
Primitive.cexpr! 'UINT2NUM(vm_ci_argc((CALL_INFO)NUM2PTR(_ci_addr)))'
end
def vm_ci_flag(ci)
_ci_addr = ci.to_i
Primitive.cexpr! 'UINT2NUM(vm_ci_flag((CALL_INFO)NUM2PTR(_ci_addr)))'
end
def rb_splat_or_kwargs_p(ci)
_ci_addr = ci.to_i
Primitive.cstmt! %{
extern bool rb_splat_or_kwargs_p(const struct rb_callinfo *restrict ci);
return RBOOL(rb_splat_or_kwargs_p((CALL_INFO)NUM2PTR(_ci_addr)));
}
end
# Returns true if iseq can use fastpath for setup, otherwise NULL. This becomes true in the same condition
# as CC_SET_FASTPATH (in vm_callee_setup_arg) is called from vm_call_iseq_setup.
def fastpath_applied_iseq_p(ci_ptr, cc_ptr, iseq_ptr)
_ci_addr = ci_ptr.to_i
_cc_addr = cc_ptr.to_i
_iseq_addr = iseq_ptr.to_i
Primitive.cstmt! %q{
extern bool rb_simple_iseq_p(const rb_iseq_t *iseq);
CALL_INFO ci = (CALL_INFO)NUM2PTR(_ci_addr);
CALL_CACHE cc = (CALL_CACHE)NUM2PTR(_cc_addr);
const rb_iseq_t *iseq = (rb_iseq_t *)NUM2PTR(_iseq_addr);
bool result = iseq != NULL
&& !(vm_ci_flag(ci) & VM_CALL_KW_SPLAT) && rb_simple_iseq_p(iseq) // Top of vm_callee_setup_arg. In this case, opt_pc is 0.
&& vm_ci_argc(ci) == (unsigned int)ISEQ_BODY(iseq)->param.lead_num // exclude argument_arity_error (assumption: `calling->argc == ci->orig_argc` in send insns)
&& vm_call_iseq_optimizable_p(ci, cc); // CC_SET_FASTPATH condition
return RBOOL(result);
}
end
def mjit_opts
addr = Primitive.cexpr! 'PTR2NUM((VALUE)&mjit_opts)'
mjit_options.new(addr)
end
def mjit_call_attribute_sp_inc(insn, operands)
_operands_addr = operands.to_i
Primitive.cexpr! 'LONG2NUM(mjit_call_attribute_sp_inc(NUM2INT(insn), (VALUE *)NUM2PTR(_operands_addr)))'
end
def mjit_capture_cc_entries(compiled_body, captured_body)
_compiled_body_addr = compiled_body.to_i
_captured_body_addr = captured_body.to_i
Primitive.cstmt! %{
extern int mjit_capture_cc_entries(const struct rb_iseq_constant_body *compiled_iseq, const struct rb_iseq_constant_body *captured_iseq);
return INT2NUM(mjit_capture_cc_entries((struct rb_iseq_constant_body *)NUM2PTR(_compiled_body_addr), (struct rb_iseq_constant_body *)NUM2PTR(_captured_body_addr)));
}
end
def mjit_cancel_all(reason)
Primitive.cstmt! %{
mjit_cancel_all(RSTRING_PTR(reason));
return Qnil;
}
end
# Convert encoded VM pointers to insn BINs.
def rb_vm_insn_decode(encoded)
Primitive.cexpr! 'INT2NUM(rb_vm_insn_decode(NUM2PTR(encoded)))'
end
# Convert insn BINs to encoded VM pointers. This one is not used by the compiler, but useful for debugging.
def rb_vm_insn_encode(bin)
Primitive.cexpr! 'PTR2NUM((VALUE)rb_vm_get_insns_address_table()[NUM2INT(bin)])'
end
def insn_may_depend_on_sp_or_pc(insn, opes)
_opes_addr = opes.to_i
Primitive.cexpr! 'RBOOL(insn_may_depend_on_sp_or_pc(NUM2INT(insn), (VALUE *)NUM2PTR(_opes_addr)))'
end
# Convert Integer VALUE to an actual Ruby object
def to_ruby(value)
Primitive.cexpr! '(VALUE)NUM2PTR(value)'
end
# Convert RubyVM::InstructionSequence to C.rb_iseq_t. Not used by the compiler, but useful for debugging.
def rb_iseqw_to_iseq(iseqw)
iseq_addr = Primitive.cexpr! 'PTR2NUM((VALUE)rb_iseqw_to_iseq(iseqw))'
rb_iseq_t.new(iseq_addr)
end
end
### MJIT bindgen begin ###
def C.USE_LAZY_LOAD
Primitive.cexpr! %q{ RBOOL(USE_LAZY_LOAD != 0) }
end
def C.NOT_COMPILED_STACK_SIZE
Primitive.cexpr! %q{ INT2NUM(NOT_COMPILED_STACK_SIZE) }
end
def C.VM_CALL_KW_SPLAT
Primitive.cexpr! %q{ INT2NUM(VM_CALL_KW_SPLAT) }
end
def C.VM_CALL_KW_SPLAT_bit
Primitive.cexpr! %q{ INT2NUM(VM_CALL_KW_SPLAT_bit) }
end
def C.VM_CALL_TAILCALL
Primitive.cexpr! %q{ INT2NUM(VM_CALL_TAILCALL) }
end
def C.VM_CALL_TAILCALL_bit
Primitive.cexpr! %q{ INT2NUM(VM_CALL_TAILCALL_bit) }
end
def C.VM_METHOD_TYPE_CFUNC
Primitive.cexpr! %q{ INT2NUM(VM_METHOD_TYPE_CFUNC) }
end
def C.VM_METHOD_TYPE_ISEQ
Primitive.cexpr! %q{ INT2NUM(VM_METHOD_TYPE_ISEQ) }
end
def C.RUBY_EVENT_CLASS
Primitive.cexpr! %q{ UINT2NUM(RUBY_EVENT_CLASS) }
end
def C.SHAPE_CAPACITY_CHANGE
Primitive.cexpr! %q{ UINT2NUM(SHAPE_CAPACITY_CHANGE) }
end
def C.SHAPE_FLAG_SHIFT
Primitive.cexpr! %q{ UINT2NUM(SHAPE_FLAG_SHIFT) }
end
def C.SHAPE_FROZEN
Primitive.cexpr! %q{ UINT2NUM(SHAPE_FROZEN) }
end
def C.SHAPE_ID_NUM_BITS
Primitive.cexpr! %q{ UINT2NUM(SHAPE_ID_NUM_BITS) }
end
def C.SHAPE_INITIAL_CAPACITY
Primitive.cexpr! %q{ UINT2NUM(SHAPE_INITIAL_CAPACITY) }
end
def C.SHAPE_IVAR
Primitive.cexpr! %q{ UINT2NUM(SHAPE_IVAR) }
end
def C.SHAPE_ROOT
Primitive.cexpr! %q{ UINT2NUM(SHAPE_ROOT) }
end
def C.INVALID_SHAPE_ID
Primitive.cexpr! %q{ ULONG2NUM(INVALID_SHAPE_ID) }
end
def C.SHAPE_MASK
Primitive.cexpr! %q{ ULONG2NUM(SHAPE_MASK) }
end
def C.rb_cFalseClass
Primitive.cexpr! %q{ PTR2NUM(rb_cFalseClass) }
end
def C.rb_cFloat
Primitive.cexpr! %q{ PTR2NUM(rb_cFloat) }
end
def C.rb_cInteger
Primitive.cexpr! %q{ PTR2NUM(rb_cInteger) }
end
def C.rb_cNilClass
Primitive.cexpr! %q{ PTR2NUM(rb_cNilClass) }
end
def C.rb_cSymbol
Primitive.cexpr! %q{ PTR2NUM(rb_cSymbol) }
end
def C.rb_cTrueClass
Primitive.cexpr! %q{ PTR2NUM(rb_cTrueClass) }
end
def C.CALL_DATA
@CALL_DATA ||= self.rb_call_data
end
def C.IC
@IC ||= self.iseq_inline_constant_cache
end
def C.IVC
@IVC ||= self.iseq_inline_iv_cache_entry
end
def C.RB_BUILTIN
@RB_BUILTIN ||= self.rb_builtin_function
end
def C.attr_index_t
@attr_index_t ||= CType::Immediate.parse("uint32_t")
end
def C.compile_branch
@compile_branch ||= CType::Struct.new(
"compile_branch", Primitive.cexpr!("SIZEOF(struct compile_branch)"),
stack_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct compile_branch *)NULL)), stack_size)")],
finish_p: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct compile_branch *)NULL)), finish_p)")],
)
end
def C.compile_status
@compile_status ||= CType::Struct.new(
"compile_status", Primitive.cexpr!("SIZEOF(struct compile_status)"),
success: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), success)")],
stack_size_for_pos: [CType::Pointer.new { CType::Immediate.parse("int") }, Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), stack_size_for_pos)")],
local_stack_p: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), local_stack_p)")],
cc_entries_index: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), cc_entries_index)")],
compiled_iseq: [CType::Pointer.new { self.rb_iseq_constant_body }, Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), compiled_iseq)")],
compiled_id: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), compiled_id)")],
compile_info: [CType::Pointer.new { self.rb_mjit_compile_info }, Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), compile_info)")],
inlined_iseqs: [CType::Pointer.new { CType::Pointer.new { self.rb_iseq_constant_body } }, Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), inlined_iseqs)")],
inline_context: [self.inlined_call_context, Primitive.cexpr!("OFFSETOF((*((struct compile_status *)NULL)), inline_context)")],
)
end
def C.inlined_call_context
@inlined_call_context ||= CType::Struct.new(
"inlined_call_context", Primitive.cexpr!("SIZEOF(struct inlined_call_context)"),
orig_argc: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct inlined_call_context *)NULL)), orig_argc)")],
me: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct inlined_call_context *)NULL)), me)")],
param_size: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct inlined_call_context *)NULL)), param_size)")],
local_size: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct inlined_call_context *)NULL)), local_size)")],
)
end
def C.iseq_inline_constant_cache
@iseq_inline_constant_cache ||= CType::Struct.new(
"iseq_inline_constant_cache", Primitive.cexpr!("SIZEOF(struct iseq_inline_constant_cache)"),
entry: [CType::Pointer.new { self.iseq_inline_constant_cache_entry }, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_constant_cache *)NULL)), entry)")],
segments: [CType::Pointer.new { self.ID }, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_constant_cache *)NULL)), segments)")],
)
end
def C.iseq_inline_constant_cache_entry
@iseq_inline_constant_cache_entry ||= CType::Struct.new(
"iseq_inline_constant_cache_entry", Primitive.cexpr!("SIZEOF(struct iseq_inline_constant_cache_entry)"),
flags: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_constant_cache_entry *)NULL)), flags)")],
value: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_constant_cache_entry *)NULL)), value)")],
_unused1: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_constant_cache_entry *)NULL)), _unused1)")],
_unused2: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_constant_cache_entry *)NULL)), _unused2)")],
ic_cref: [CType::Pointer.new { self.rb_cref_t }, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_constant_cache_entry *)NULL)), ic_cref)")],
)
end
def C.iseq_inline_iv_cache_entry
@iseq_inline_iv_cache_entry ||= CType::Struct.new(
"iseq_inline_iv_cache_entry", Primitive.cexpr!("SIZEOF(struct iseq_inline_iv_cache_entry)"),
value: [CType::Immediate.parse("uintptr_t"), Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_iv_cache_entry *)NULL)), value)")],
iv_set_name: [self.ID, Primitive.cexpr!("OFFSETOF((*((struct iseq_inline_iv_cache_entry *)NULL)), iv_set_name)")],
)
end
def C.iseq_inline_storage_entry
@iseq_inline_storage_entry ||= CType::Union.new(
"iseq_inline_storage_entry", Primitive.cexpr!("SIZEOF(union iseq_inline_storage_entry)"),
once: CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((union iseq_inline_storage_entry *)NULL)->once)"),
running_thread: [CType::Pointer.new { self.rb_thread_struct }, Primitive.cexpr!("OFFSETOF(((union iseq_inline_storage_entry *)NULL)->once, running_thread)")],
value: [self.VALUE, Primitive.cexpr!("OFFSETOF(((union iseq_inline_storage_entry *)NULL)->once, value)")],
),
ic_cache: self.iseq_inline_constant_cache,
iv_cache: self.iseq_inline_iv_cache_entry,
)
end
def C.mjit_options
@mjit_options ||= CType::Struct.new(
"mjit_options", Primitive.cexpr!("SIZEOF(struct mjit_options)"),
on: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), on)")],
save_temps: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), save_temps)")],
warnings: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), warnings)")],
debug: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), debug)")],
debug_flags: [CType::Pointer.new { CType::Immediate.parse("char") }, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), debug_flags)")],
wait: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), wait)")],
call_threshold: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), call_threshold)")],
verbose: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), verbose)")],
max_cache_size: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), max_cache_size)")],
pause: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), pause)")],
custom: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct mjit_options *)NULL)), custom)")],
)
end
def C.rb_builtin_function
@rb_builtin_function ||= CType::Struct.new(
"rb_builtin_function", Primitive.cexpr!("SIZEOF(struct rb_builtin_function)"),
func_ptr: [CType::Pointer.new { CType::Immediate.parse("void") }, Primitive.cexpr!("OFFSETOF((*((struct rb_builtin_function *)NULL)), func_ptr)")],
argc: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct rb_builtin_function *)NULL)), argc)")],
index: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct rb_builtin_function *)NULL)), index)")],
name: [CType::Pointer.new { CType::Immediate.parse("char") }, Primitive.cexpr!("OFFSETOF((*((struct rb_builtin_function *)NULL)), name)")],
compiler: [CType::Immediate.parse("void *"), Primitive.cexpr!("OFFSETOF((*((struct rb_builtin_function *)NULL)), compiler)")],
)
end
def C.rb_call_data
@rb_call_data ||= CType::Struct.new(
"rb_call_data", Primitive.cexpr!("SIZEOF(struct rb_call_data)"),
ci: [CType::Pointer.new { self.rb_callinfo }, Primitive.cexpr!("OFFSETOF((*((struct rb_call_data *)NULL)), ci)")],
cc: [CType::Pointer.new { self.rb_callcache }, Primitive.cexpr!("OFFSETOF((*((struct rb_call_data *)NULL)), cc)")],
)
end
def C.rb_callable_method_entry_struct
@rb_callable_method_entry_struct ||= CType::Struct.new(
"rb_callable_method_entry_struct", Primitive.cexpr!("SIZEOF(struct rb_callable_method_entry_struct)"),
flags: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callable_method_entry_struct *)NULL)), flags)")],
defined_class: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callable_method_entry_struct *)NULL)), defined_class)")],
def: [CType::Pointer.new { self.rb_method_definition_struct }, Primitive.cexpr!("OFFSETOF((*((struct rb_callable_method_entry_struct *)NULL)), def)")],
called_id: [self.ID, Primitive.cexpr!("OFFSETOF((*((struct rb_callable_method_entry_struct *)NULL)), called_id)")],
owner: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callable_method_entry_struct *)NULL)), owner)")],
)
end
def C.rb_callcache
@rb_callcache ||= CType::Struct.new(
"rb_callcache", Primitive.cexpr!("SIZEOF(struct rb_callcache)"),
flags: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callcache *)NULL)), flags)")],
klass: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callcache *)NULL)), klass)")],
cme_: [CType::Pointer.new { self.rb_callable_method_entry_struct }, Primitive.cexpr!("OFFSETOF((*((struct rb_callcache *)NULL)), cme_)")],
call_: [self.vm_call_handler, Primitive.cexpr!("OFFSETOF((*((struct rb_callcache *)NULL)), call_)")],
aux_: [CType::Union.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_callcache *)NULL)->aux_)"),
attr: CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_callcache *)NULL)->aux_.attr)"),
value: [CType::Immediate.parse("uintptr_t"), Primitive.cexpr!("OFFSETOF(((struct rb_callcache *)NULL)->aux_.attr, value)")],
),
method_missing_reason: self.method_missing_reason,
v: self.VALUE,
), Primitive.cexpr!("OFFSETOF((*((struct rb_callcache *)NULL)), aux_)")],
)
end
def C.rb_callinfo
@rb_callinfo ||= CType::Struct.new(
"rb_callinfo", Primitive.cexpr!("SIZEOF(struct rb_callinfo)"),
flags: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callinfo *)NULL)), flags)")],
kwarg: [CType::Pointer.new { self.rb_callinfo_kwarg }, Primitive.cexpr!("OFFSETOF((*((struct rb_callinfo *)NULL)), kwarg)")],
mid: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callinfo *)NULL)), mid)")],
flag: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callinfo *)NULL)), flag)")],
argc: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_callinfo *)NULL)), argc)")],
)
end
def C.rb_control_frame_t
@rb_control_frame_t ||= CType::Struct.new(
"rb_control_frame_struct", Primitive.cexpr!("SIZEOF(struct rb_control_frame_struct)"),
pc: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), pc)")],
sp: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), sp)")],
iseq: [CType::Pointer.new { self.rb_iseq_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), iseq)")],
self: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), self)")],
ep: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), ep)")],
block_code: [CType::Pointer.new { CType::Immediate.parse("void") }, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), block_code)")],
__bp__: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), __bp__)")],
jit_return: [CType::Pointer.new { CType::Immediate.parse("void") }, Primitive.cexpr!("OFFSETOF((*((struct rb_control_frame_struct *)NULL)), jit_return)")],
)
end
def C.rb_cref_t
@rb_cref_t ||= CType::Struct.new(
"rb_cref_struct", Primitive.cexpr!("SIZEOF(struct rb_cref_struct)"),
flags: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_cref_struct *)NULL)), flags)")],
refinements: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_cref_struct *)NULL)), refinements)")],
klass_or_self: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_cref_struct *)NULL)), klass_or_self)")],
next: [CType::Pointer.new { self.rb_cref_struct }, Primitive.cexpr!("OFFSETOF((*((struct rb_cref_struct *)NULL)), next)")],
scope_visi: [self.rb_scope_visibility_t, Primitive.cexpr!("OFFSETOF((*((struct rb_cref_struct *)NULL)), scope_visi)")],
)
end
def C.rb_execution_context_struct
@rb_execution_context_struct ||= CType::Struct.new(
"rb_execution_context_struct", Primitive.cexpr!("SIZEOF(struct rb_execution_context_struct)"),
vm_stack: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), vm_stack)")],
vm_stack_size: [CType::Immediate.parse("size_t"), Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), vm_stack_size)")],
cfp: [CType::Pointer.new { self.rb_control_frame_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), cfp)")],
tag: [CType::Pointer.new { self.rb_vm_tag }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), tag)")],
interrupt_flag: [self.rb_atomic_t, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), interrupt_flag)")],
interrupt_mask: [self.rb_atomic_t, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), interrupt_mask)")],
fiber_ptr: [CType::Pointer.new { self.rb_fiber_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), fiber_ptr)")],
thread_ptr: [CType::Pointer.new { self.rb_thread_struct }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), thread_ptr)")],
local_storage: [CType::Pointer.new { self.rb_id_table }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), local_storage)")],
local_storage_recursive_hash: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), local_storage_recursive_hash)")],
local_storage_recursive_hash_for_trace: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), local_storage_recursive_hash_for_trace)")],
storage: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), storage)")],
root_lep: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), root_lep)")],
root_svar: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), root_svar)")],
ensure_list: [CType::Pointer.new { self.rb_ensure_list_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), ensure_list)")],
trace_arg: [CType::Pointer.new { self.rb_trace_arg_struct }, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), trace_arg)")],
errinfo: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), errinfo)")],
passed_block_handler: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), passed_block_handler)")],
raised_flag: [CType::Immediate.parse("uint8_t"), Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), raised_flag)")],
private_const_reference: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), private_const_reference)")],
machine: [CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_execution_context_struct *)NULL)->machine)"),
stack_start: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF(((struct rb_execution_context_struct *)NULL)->machine, stack_start)")],
stack_end: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF(((struct rb_execution_context_struct *)NULL)->machine, stack_end)")],
stack_maxsize: [CType::Immediate.parse("size_t"), Primitive.cexpr!("OFFSETOF(((struct rb_execution_context_struct *)NULL)->machine, stack_maxsize)")],
), Primitive.cexpr!("OFFSETOF((*((struct rb_execution_context_struct *)NULL)), machine)")],
)
end
def C.rb_execution_context_t
@rb_execution_context_t ||= self.rb_execution_context_struct
end
def C.rb_iseq_constant_body
@rb_iseq_constant_body ||= CType::Struct.new(
"rb_iseq_constant_body", Primitive.cexpr!("SIZEOF(struct rb_iseq_constant_body)"),
type: [self.rb_iseq_type, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), type)")],
iseq_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), iseq_size)")],
iseq_encoded: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), iseq_encoded)")],
param: [CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_iseq_constant_body *)NULL)->param)"),
flags: [CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_iseq_constant_body *)NULL)->param.flags)"),
has_lead: [CType::BitField.new(1, 0), 0],
has_opt: [CType::BitField.new(1, 1), 1],
has_rest: [CType::BitField.new(1, 2), 2],
has_post: [CType::BitField.new(1, 3), 3],
has_kw: [CType::BitField.new(1, 4), 4],
has_kwrest: [CType::BitField.new(1, 5), 5],
has_block: [CType::BitField.new(1, 6), 6],
ambiguous_param0: [CType::BitField.new(1, 7), 7],
accepts_no_kwarg: [CType::BitField.new(1, 0), 8],
ruby2_keywords: [CType::BitField.new(1, 1), 9],
), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, flags)")],
size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, size)")],
lead_num: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, lead_num)")],
opt_num: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, opt_num)")],
rest_start: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, rest_start)")],
post_start: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, post_start)")],
post_num: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, post_num)")],
block_start: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, block_start)")],
opt_table: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, opt_table)")],
keyword: [CType::Pointer.new { self.rb_iseq_param_keyword }, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->param, keyword)")],
), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), param)")],
location: [self.rb_iseq_location_t, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), location)")],
insns_info: [self.iseq_insn_info, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), insns_info)")],
local_table: [CType::Pointer.new { self.ID }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), local_table)")],
catch_table: [CType::Pointer.new { self.iseq_catch_table }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), catch_table)")],
parent_iseq: [CType::Pointer.new { self.rb_iseq_struct }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), parent_iseq)")],
local_iseq: [CType::Pointer.new { self.rb_iseq_struct }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), local_iseq)")],
is_entries: [CType::Pointer.new { self.iseq_inline_storage_entry }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), is_entries)")],
call_data: [CType::Pointer.new { self.rb_call_data }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), call_data)")],
variable: [CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_iseq_constant_body *)NULL)->variable)"),
flip_count: [self.rb_snum_t, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->variable, flip_count)")],
script_lines: [self.VALUE, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->variable, script_lines)")],
coverage: [self.VALUE, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->variable, coverage)")],
pc2branchindex: [self.VALUE, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->variable, pc2branchindex)")],
original_iseq: [CType::Pointer.new { self.VALUE }, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_constant_body *)NULL)->variable, original_iseq)")],
), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), variable)")],
local_table_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), local_table_size)")],
ic_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), ic_size)")],
ise_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), ise_size)")],
ivc_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), ivc_size)")],
icvarc_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), icvarc_size)")],
ci_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), ci_size)")],
stack_max: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), stack_max)")],
catch_except_p: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), catch_except_p)")],
builtin_inline_p: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), builtin_inline_p)")],
mark_bits: [CType::Union.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_iseq_constant_body *)NULL)->mark_bits)"),
list: CType::Pointer.new { self.iseq_bits_t },
single: self.iseq_bits_t,
), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), mark_bits)")],
outer_variables: [CType::Pointer.new { self.rb_id_table }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), outer_variables)")],
mandatory_only_iseq: [CType::Pointer.new { self.rb_iseq_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), mandatory_only_iseq)")],
jit_func: [CType::Immediate.parse("void *"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), jit_func)")],
total_calls: [CType::Immediate.parse("unsigned long"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), total_calls)")],
mjit_unit: [CType::Pointer.new { self.rb_mjit_unit }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_constant_body *)NULL)), mjit_unit)")],
)
end
def C.rb_iseq_location_t
@rb_iseq_location_t ||= CType::Struct.new(
"rb_iseq_location_struct", Primitive.cexpr!("SIZEOF(struct rb_iseq_location_struct)"),
pathobj: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_location_struct *)NULL)), pathobj)"), true],
base_label: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_location_struct *)NULL)), base_label)"), true],
label: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_location_struct *)NULL)), label)"), true],
first_lineno: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_location_struct *)NULL)), first_lineno)"), true],
node_id: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_location_struct *)NULL)), node_id)")],
code_location: [self.rb_code_location_t, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_location_struct *)NULL)), code_location)")],
)
end
def C.rb_iseq_struct
@rb_iseq_struct ||= CType::Struct.new(
"rb_iseq_struct", Primitive.cexpr!("SIZEOF(struct rb_iseq_struct)"),
flags: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_struct *)NULL)), flags)")],
wrapper: [self.VALUE, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_struct *)NULL)), wrapper)")],
body: [CType::Pointer.new { self.rb_iseq_constant_body }, Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_struct *)NULL)), body)")],
aux: [CType::Union.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_iseq_struct *)NULL)->aux)"),
compile_data: CType::Pointer.new { self.iseq_compile_data },
loader: CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_iseq_struct *)NULL)->aux.loader)"),
obj: [self.VALUE, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_struct *)NULL)->aux.loader, obj)")],
index: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF(((struct rb_iseq_struct *)NULL)->aux.loader, index)")],
),
exec: CType::Struct.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_iseq_struct *)NULL)->aux.exec)"),
local_hooks: [CType::Pointer.new { self.rb_hook_list_struct }, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_struct *)NULL)->aux.exec, local_hooks)")],
global_trace_events: [self.rb_event_flag_t, Primitive.cexpr!("OFFSETOF(((struct rb_iseq_struct *)NULL)->aux.exec, global_trace_events)")],
),
), Primitive.cexpr!("OFFSETOF((*((struct rb_iseq_struct *)NULL)), aux)")],
)
end
def C.rb_iseq_t
@rb_iseq_t ||= self.rb_iseq_struct
end
def C.rb_method_definition_struct
@rb_method_definition_struct ||= CType::Struct.new(
"rb_method_definition_struct", Primitive.cexpr!("SIZEOF(struct rb_method_definition_struct)"),
type: [CType::BitField.new(4, 0), 0],
iseq_overload: [CType::BitField.new(1, 4), 4],
alias_count: [CType::BitField.new(27, 5), 5],
complemented_count: [CType::BitField.new(28, 0), 32],
no_redef_warning: [CType::BitField.new(1, 4), 60],
body: [CType::Union.new(
"", Primitive.cexpr!("SIZEOF(((struct rb_method_definition_struct *)NULL)->body)"),
iseq: self.rb_method_iseq_t,
cfunc: self.rb_method_cfunc_t,
attr: self.rb_method_attr_t,
alias: self.rb_method_alias_t,
refined: self.rb_method_refined_t,
bmethod: self.rb_method_bmethod_t,
optimized: self.rb_method_optimized_t,
), Primitive.cexpr!("OFFSETOF((*((struct rb_method_definition_struct *)NULL)), body)")],
original_id: [self.ID, Primitive.cexpr!("OFFSETOF((*((struct rb_method_definition_struct *)NULL)), original_id)")],
method_serial: [CType::Immediate.parse("uintptr_t"), Primitive.cexpr!("OFFSETOF((*((struct rb_method_definition_struct *)NULL)), method_serial)")],
)
end
def C.rb_method_iseq_t
@rb_method_iseq_t ||= CType::Struct.new(
"rb_method_iseq_struct", Primitive.cexpr!("SIZEOF(struct rb_method_iseq_struct)"),
iseqptr: [CType::Pointer.new { self.rb_iseq_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_method_iseq_struct *)NULL)), iseqptr)")],
cref: [CType::Pointer.new { self.rb_cref_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_method_iseq_struct *)NULL)), cref)")],
)
end
def C.rb_method_type_t
@rb_method_type_t ||= CType::Immediate.parse("int")
end
def C.rb_mjit_compile_info
@rb_mjit_compile_info ||= CType::Struct.new(
"rb_mjit_compile_info", Primitive.cexpr!("SIZEOF(struct rb_mjit_compile_info)"),
disable_ivar_cache: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_compile_info *)NULL)), disable_ivar_cache)")],
disable_exivar_cache: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_compile_info *)NULL)), disable_exivar_cache)")],
disable_send_cache: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_compile_info *)NULL)), disable_send_cache)")],
disable_inlining: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_compile_info *)NULL)), disable_inlining)")],
disable_const_cache: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_compile_info *)NULL)), disable_const_cache)")],
)
end
def C.rb_mjit_unit
@rb_mjit_unit ||= CType::Struct.new(
"rb_mjit_unit", Primitive.cexpr!("SIZEOF(struct rb_mjit_unit)"),
unode: [self.ccan_list_node, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), unode)")],
id: [CType::Immediate.parse("int"), Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), id)")],
type: [self.rb_mjit_unit_type, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), type)")],
iseq: [CType::Pointer.new { self.rb_iseq_t }, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), iseq)")],
used_code_p: [self._Bool, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), used_code_p)")],
compile_info: [self.rb_mjit_compile_info, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), compile_info)")],
cc_entries: [CType::Pointer.new { CType::Pointer.new { self.rb_callcache } }, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), cc_entries)")],
cc_entries_size: [CType::Immediate.parse("unsigned int"), Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), cc_entries_size)")],
handle: [CType::Pointer.new { CType::Immediate.parse("void") }, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), handle)")],
units: [self.rb_mjit_unit_list, Primitive.cexpr!("OFFSETOF((*((struct rb_mjit_unit *)NULL)), units)")],
)
end
def C.rb_serial_t
@rb_serial_t ||= CType::Immediate.parse("unsigned long long")
end
def C.rb_shape
@rb_shape ||= CType::Struct.new(
"rb_shape", Primitive.cexpr!("SIZEOF(struct rb_shape)"),
edges: [CType::Pointer.new { self.rb_id_table }, Primitive.cexpr!("OFFSETOF((*((struct rb_shape *)NULL)), edges)")],
edge_name: [self.ID, Primitive.cexpr!("OFFSETOF((*((struct rb_shape *)NULL)), edge_name)")],
next_iv_index: [self.attr_index_t, Primitive.cexpr!("OFFSETOF((*((struct rb_shape *)NULL)), next_iv_index)")],
capacity: [CType::Immediate.parse("uint32_t"), Primitive.cexpr!("OFFSETOF((*((struct rb_shape *)NULL)), capacity)")],
type: [CType::Immediate.parse("uint8_t"), Primitive.cexpr!("OFFSETOF((*((struct rb_shape *)NULL)), type)")],
size_pool_index: [CType::Immediate.parse("uint8_t"), Primitive.cexpr!("OFFSETOF((*((struct rb_shape *)NULL)), size_pool_index)")],
parent_id: [self.shape_id_t, Primitive.cexpr!("OFFSETOF((*((struct rb_shape *)NULL)), parent_id)")],
)
end
def C.rb_shape_t
@rb_shape_t ||= self.rb_shape
end
def C.VALUE
@VALUE ||= CType::Immediate.find(Primitive.cexpr!("SIZEOF(VALUE)"), Primitive.cexpr!("SIGNED_TYPE_P(VALUE)"))
end
def C.shape_id_t
@shape_id_t ||= CType::Immediate.find(Primitive.cexpr!("SIZEOF(shape_id_t)"), Primitive.cexpr!("SIGNED_TYPE_P(shape_id_t)"))
end
def C._Bool
CType::Bool.new
end
def C.ID
CType::Stub.new(:ID)
end
def C.rb_thread_struct
CType::Stub.new(:rb_thread_struct)
end
def C.vm_call_handler
CType::Stub.new(:vm_call_handler)
end
def C.method_missing_reason
CType::Stub.new(:method_missing_reason)
end
def C.rb_callinfo_kwarg
CType::Stub.new(:rb_callinfo_kwarg)
end
def C.rb_cref_struct
CType::Stub.new(:rb_cref_struct)
end
def C.rb_scope_visibility_t
CType::Stub.new(:rb_scope_visibility_t)
end
def C.rb_vm_tag
CType::Stub.new(:rb_vm_tag)
end
def C.rb_atomic_t
CType::Stub.new(:rb_atomic_t)
end
def C.rb_fiber_t
CType::Stub.new(:rb_fiber_t)
end
def C.rb_id_table
CType::Stub.new(:rb_id_table)
end
def C.rb_ensure_list_t
CType::Stub.new(:rb_ensure_list_t)
end
def C.rb_trace_arg_struct
CType::Stub.new(:rb_trace_arg_struct)
end
def C.rb_iseq_type
CType::Stub.new(:rb_iseq_type)
end
def C.rb_iseq_param_keyword
CType::Stub.new(:rb_iseq_param_keyword)
end
def C.iseq_insn_info
CType::Stub.new(:iseq_insn_info)
end
def C.iseq_catch_table
CType::Stub.new(:iseq_catch_table)
end
def C.rb_snum_t
CType::Stub.new(:rb_snum_t)
end
def C.iseq_bits_t
CType::Stub.new(:iseq_bits_t)
end
def C.rb_code_location_t
CType::Stub.new(:rb_code_location_t)
end
def C.iseq_compile_data
CType::Stub.new(:iseq_compile_data)
end
def C.rb_hook_list_struct
CType::Stub.new(:rb_hook_list_struct)
end
def C.rb_event_flag_t
CType::Stub.new(:rb_event_flag_t)
end
def C.rb_method_cfunc_t
CType::Stub.new(:rb_method_cfunc_t)
end
def C.rb_method_attr_t
CType::Stub.new(:rb_method_attr_t)
end
def C.rb_method_alias_t
CType::Stub.new(:rb_method_alias_t)
end
def C.rb_method_refined_t
CType::Stub.new(:rb_method_refined_t)
end
def C.rb_method_bmethod_t
CType::Stub.new(:rb_method_bmethod_t)
end
def C.rb_method_optimized_t
CType::Stub.new(:rb_method_optimized_t)
end
def C.ccan_list_node
CType::Stub.new(:ccan_list_node)
end
def C.rb_mjit_unit_type
CType::Stub.new(:rb_mjit_unit_type)
end
def C.rb_mjit_unit_list
CType::Stub.new(:rb_mjit_unit_list)
end
### MJIT bindgen end ###
end if RubyVM::MJIT.enabled? && RubyVM::MJIT.const_defined?(:C) # not defined for miniruby